IBM 7947E5U Product Manual Download Page 6

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Leadership enterprise server with significantly lower cost of ownership in a highly available and
expandable, rack-dense, 2U dual-socket server

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800MHz clock speed.. Using 1333MHz memory (where supported) versus 1066MHz offers up to

better performance, while 1066MHz memory produces up to

28%

better performance than

800MHz memory.

Xeon 5550 series processors access memory with almost

50% lower latency

than the previous

generation 5400 series processors. That can result in faster processing of latency-sensitive
workloads.

This new processor design comes with some trade-offs in memory capacity, performance, and
cost: For example,

greater memory capacity

comes with

lower memory speed

. Alternatively, it

is possible to achieve the

same memory capacity at lower cost

but

at a lower memory speed

Regardless of memory

speed

, the Xeon 5500 platform represents a significant improvement in

memory

bandwidth

over the previous Xeon 5400 platform. At 1333MHz, the improvement is

almost

500%

over the previous generation. This huge improvement is mainly due to the dual

integrated memory controllers and faster DDR-3 1333MHz memory. Throughput at 800MHz is

gigabytes per second

(GBps); at 1066MHz it’s

32GBps

; and at 1333MHz it’s

35GBps

. This

improvement translates into improved application performance and scalability.

Memory interleaving refers to how physical memory is interleaved across the physical DIMMs. A
balanced system provides the best interleaving. A Xeon 5500 processor-based system is
balanced when all memory channels on a socket have the same amount of memory.

A memory rank is simply a segment of memory that is addressed by a specific address bit.
DIMMs typically have 1, 2 or 4 memory ranks, as indicated by their size designation.

•

A typical memory DIMM description is 2GB 4Rx8 DIMM

•

The 4R designator is the rank count for this particular DIMM (R for rank = 4)

•

The x8 designator is the data width of the rank

It is important to ensure that DIMMs with appropriate number of ranks are populated in each
channel for optimal performance. Whenever possible,

it is recommended to use dual-rank

DIMMs

in the system. Dual-rank DIMMs offer better interleaving and hence better performance

than single-rank DIMMs. For instance, a system populated with six 2GB

dual

-rank DIMMs

outperforms a system populated with six 2GB

single

-rank DIMMs by

for SPECjbb2005. Dual-

rank DIMMs are also better than quad-rank DIMMs because

quad-rank DIMMs will cause the

memory speed to be down-clocked

Another important guideline is to populate equivalent ranks per channel. For instance,

mixing

one single-rank DIMM and one dual-rank DIMM in a channel should be avoided

Note:

It is important to ensure that all three memory channels in each processor are populated.

The relative memory bandwidth decreases as the number of channels populated decreases. This
is because the bandwidth of all the memory channels is utilized to support the capability of the
processor. So, as the channels are decreased, the burden to support the requisite bandwidth is
increased on the remaining channels, causing them to become a bottleneck.

For increased availability, the x3650 M2 offers an additional (but mutually exclusive) level of IBM
Active Memory protection: online

memory mirroring.

Memory mirroring

works much like disk mirroring. The total memory is divided into two channels.

Data is

written concurrently to both channels

. If a DIMM fails in one of the DIMMs in the primary

channel, it is instantly disabled and the mirrored (backup) memory in the other channel becomes
active (primary) until the failing DIMM is replaced. One-half of total memory is available for use
with mirroring enabled. (

Note:

Due to the double writes to memory, performance is affected.)

Mirroring is handled at the hardware level; no operating system support is required.

DDR-3 memory is available in

1GB

2GB

4GB

and

8GB

DIMMs. DIMMs are installed individually

(not in pairs).

Drive Bays

The x3650 M2 contains twelve

drive bays in all. Hot-swap drives may be inserted or removed

through the front of the server without powering off the system. Simple-swap solid-state drives
can be inserted or removed through the front of the server as well; however, the system power
must first be turned off.

For additional storage, a direct-attach, NAS or SAN external expansion option can be added,
using an optional controller.

24X/24X/24X/8X

speed (ultraslim, 0.5”) CD-RW/DVD-ROM Combo drive or CD-RW/DVD-RW

Multi-burner drive is connected to a dedicated SATA port. No diskette drive is supplied with any
model; an external USB floppy drive may be used, if needed.

Variable read rate. Actual playback speed varies and is often less than the maximum possible.